01017nam0 2200265 i 450 SUN005972920140625025023.23818-592-8254-720070612d1997 |0engc50 baengGB|||| |||||Sculpture conservationpreservation or interferenceedited by Phillip LindleyAldershotScolarc1997xxxii, 208 p.ill.26 cm.AldershotSUNL000151731.4821Lindley, PhillipSUNV047306ScolarSUNV006616650ITSOL20181109RICASUN0059729UFFICIO DI BIBLIOTECA DEL DIPARTIMENTO DI LETTERE E BENI CULTURALI07 CONS D Liveapool 1993 07 5872 UFFICIO DI BIBLIOTECA DEL DIPARTIMENTO DI LETTERE E BENI CULTURALIIT-CE01035872CONS D Liveapool 1993paSculpture conservation1425373UNICAMPANIA04651nam 2200589Ia 450 991045388800332120200520144314.01-60692-626-8(CKB)1000000000720467(EBL)3018270(SSID)ssj0000258456(PQKBManifestationID)11196218(PQKBTitleCode)TC0000258456(PQKBWorkID)10256093(PQKB)10568636(MiAaPQ)EBC3018270(Au-PeEL)EBL3018270(CaPaEBR)ebr10659192(OCoLC)923657462(EXLCZ)99100000000072046720060209d2007 uy 0engur|n|---|||||txtccrThermodynamics and heat powered cycles[electronic resource] a cognitive engineering approach /Chih WuNew York Nova Science Publishersc20071 online resource (677 p.)Description based upon print version of record.1-60021-034-1 Includes bibliographical references (p. [651]) and index.""THERMODYNAMICS AND HEATPOWERED CYCLES:A COGNITIVEENGINEERING APPROACH""; ""NOTICE TO THE READER""; ""CONTENTS""; ""PREFACE""; ""ACKNOWLEDGEMENTS""; ""BASIC CONCEPTS""; ""1.1. THERMODYNAMICS""; ""Homework 1.1. Thermodynamics""; ""1.2. BASIC LAWS""; ""Homework 1.2. Basic Laws""; ""1.3. WHY STUDY THERMODYNAMICS?""; ""Homework 1.3. Why Study Thermodynamics?""; ""1.4. DIMENSIONS AND UNITS""; ""Example 1.4.1.""; ""Example 1.4.2.""; ""Homework 1.4. Dimensions and Units""; ""1.5. SYSTEMS""; ""Homework 1.5. Systems""; ""1.6. PROPERTIES OF A SYSTEM""; ""1.6.1. Volume (V)""""1.6.2. Density (Ï?) and Specific Volume (v)""""Example 1.6.1.""; ""1.6.3. Pressure (p)""; ""Example 1.6.3.1.""; ""Example 1.6.3.2.""; ""1.6.4. Temperature (T)""; ""Example 1.6.4.1.""; ""1.6.5. Energy (E)""; ""1.6.6. Enthalpy (H)""; ""1.6.7. Specific Heat (c, cp and cv)""; ""1.6.8. Ratio of the Specific Heats (k)""; ""1.6.9. Quality, Dryness and Moisture Content""; ""Example 1.6.9.1.""; ""1.6.10. Entropy (S)""; ""1.6.11. Point Function""; ""Homewok 1.6. Properties""; ""1.7. EQUILIBRIUM STATE""; ""Homework 1.7. Equilibrium State""; ""1.8. PROCESSES AND CYCLES""""Homework 1.8. Processes and Cycles""""1.9. CYCLEPAD""; ""1.9.1. Download""; ""1.9.2. Installation onto your own PC""; ""1.9.3. Contents""; ""1.9.4. Modes""; ""1.10. SUMMARY""; ""PROPERTIES OF THERMODYNAMIC SUBSTANCES""; ""2.1. THERMODYNAMIC SUBSTANCES""; ""Homework 2.1. Thermodynamic Substances""; ""2.2. PURE SUBSTANCES""; ""Example 2.2.1.""; ""Example 2.2.2.""; ""Example 2.2.3.""; ""Example 2.2.4.""; ""Example 2.2.5.""; ""Example 2.2.6.""; ""Example 2.2.7.""; ""Example 2.2.8.""; ""Example 2.2.9.""; ""Example 2.2.10.""; ""Homework 2.2. Pure substances""; ""2.3. IDEAL GASES""""Example 2.3.1.""""Example 2.3.2.""; ""Example 2.3.3.""; ""Example 2.3.4.""; ""Example 2.3.5.""; ""Example 2.3.6.""; ""Example 2.3.7.""; ""Homework 2.3. Ideal gases""; ""2.4. REAL GASES""; ""Example 2.4.1.""; ""Homework 2.4. Real gases""; ""2.5. INCOMPRESSIBLE SUBSTANCES""; ""Example 2.5.1.""; ""Example 2.5.2.""; ""Example 2.5.3.""; ""Homework 2.5. Incompressible substances (Liquids and solids)""; ""2.6. SUMMARY""; ""FIRST LAW OF THERMODYNAMICSFOR CLOSED SYSTEMS""; ""3.1. INTRODUCTION""; ""Homework 3.1. Introduction""; ""3.2. WORK""; ""Example 3.2.1.""; ""Example 3.2.2.""; ""Example 3.2.3.""""Homework 3.2. Work""""3.3. HEAT""; ""Homework 3.3. Heat""; ""3.4. FIRST LAW OF THERMODYNAMICS FOR A CLOSED SYSTEM""; ""Example 3.4.2.""; ""Homework 3.4. First Law of Thermodynamics for a Closed System""; ""3.5. FIRST LAW OF THERMODYNAMICS FOR ACLOSED SYSTEM APPLY TO CYCLES""; ""Example 3.5.1.""; ""Homework 3.5. First Law of Thermodynamics for a Closed System Apply toCycles""; ""3.6. CLOSED SYSTEM FOR VARIOUS PROCESSES""; ""3.6.1. Constant Volume (Isochoric or Isometric) Process""; ""Homework 3.6.1. Constant Volume""; ""3.6.2. Constant Pressure (Isobaric) Process""""Homework 3.6.2. Isobaric Process""ThermodynamicsData processingHeat engineeringData processingElectronic books.ThermodynamicsData processing.Heat engineeringData processing.621.402/1Wu Chih1936-281832MiAaPQMiAaPQMiAaPQBOOK9910453888003321Thermodynamics and heat powered cycles2166042UNINA02288nam 2200601 450 991046354280332120200520144314.00-8143-3854-2(CKB)3170000000060428(EBL)3416608(SSID)ssj0001036554(PQKBManifestationID)11629189(PQKBTitleCode)TC0001036554(PQKBWorkID)11042608(PQKB)10461872(MiAaPQ)EBC3416608(OCoLC)867741507(MdBmJHUP)muse22604(Au-PeEL)EBL3416608(CaPaEBR)ebr10836396(EXLCZ)99317000000006042820130426h20132013 uy| 0engur|n|---|||||txtccrQueer enchantments gender, sexuality, and class in the fairy-tale cinema of Jacques Demy /Anne E. DugganDetroit :Wayne State University Press,[2013]©20131 online resource (205 p.)Series in fairy-tale studiesDescription based upon print version of record.0-8143-3509-8 Includes bibliographical references and index.Introduction: queer enchantments -- Fairy tale and melodrama: Lola and The umbrellas of Cherbourg -- The camping of "donkey skin": Jacques Demy's cinematic re-vision of a classic tale -- Artistic freedom and grotesque satire: bohemians and bourgeois in The pied piper -- The queering of the French revolution: Lady Oscar and the tradition of the maiden warrior -- Epilogue: Demy's postmodern tales -- Filmography of Jacques Demy.Series in Fairy-Tale StudiesFairy tales in motion picturesSex role in motion picturesSocial classes in motion picturesElectronic books.Fairy tales in motion pictures.Sex role in motion pictures.Social classes in motion pictures.791.43/6559Duggan Anne E.1967-1052558MiAaPQMiAaPQMiAaPQBOOK9910463542803321Queer enchantments2483936UNINA